#pragma once

#include "defines.hpp"
#include "helpers/SubsurfaceTree.hpp"
#include "helpers/AnimatedVariable.hpp"
#include "render/decorations/IHyprWindowDecoration.hpp"
#include <deque>
#include "config/ConfigDataValues.hpp"
#include "helpers/Vector2D.hpp"
#include "helpers/WLSurface.hpp"
#include "macros.hpp"
#include "managers/XWaylandManager.hpp"

enum eIdleInhibitMode {
    IDLEINHIBIT_NONE = 0,
    IDLEINHIBIT_ALWAYS,
    IDLEINHIBIT_FULLSCREEN,
    IDLEINHIBIT_FOCUS
};

enum eGroupRules {
    // effective only during first map, except for _ALWAYS variant
    GROUP_NONE        = 0,
    GROUP_SET         = 1 << 0, // Open as new group or add to focused group
    GROUP_SET_ALWAYS  = 1 << 1,
    GROUP_BARRED      = 1 << 2, // Don't insert to focused group.
    GROUP_LOCK        = 1 << 3, // Lock m_sGroupData.lock
    GROUP_LOCK_ALWAYS = 1 << 4,
    GROUP_INVADE      = 1 << 5, // Force enter a group, event if lock is engaged
    GROUP_OVERRIDE    = 1 << 6, // Override other rules
};

class IWindowTransformer;

template <typename T>
class CWindowOverridableVar {
  public:
    CWindowOverridableVar(T val) {
        value = val;
    }

    ~CWindowOverridableVar() = default;

    CWindowOverridableVar<T>& operator=(CWindowOverridableVar<T> other) {
        if (locked)
            return *this;

        locked = other.locked;
        value  = other.value;

        return *this;
    }

    T operator=(T& other) {
        if (locked)
            return value;
        value = other;
        return other;
    }

    void forceSetIgnoreLocked(T val, bool lock = false) {
        value  = val;
        locked = lock;
    }

    T operator*(T& other) {
        return value * other;
    }

    T operator+(T& other) {
        return value + other;
    }

    bool operator==(T& other) {
        return other == value;
    }

    bool operator>=(T& other) {
        return value >= other;
    }

    bool operator<=(T& other) {
        return value <= other;
    }

    bool operator>(T& other) {
        return value > other;
    }

    bool operator<(T& other) {
        return value < other;
    }

    explicit operator bool() {
        return static_cast<bool>(value);
    }

    T toUnderlying() {
        return value;
    }

    bool locked = false;

  private:
    T value;
};

struct SWindowSpecialRenderData {
    CWindowOverridableVar<bool>               alphaOverride         = false;
    CWindowOverridableVar<float>              alpha                 = 1.f;
    CWindowOverridableVar<bool>               alphaInactiveOverride = false;
    CWindowOverridableVar<float>              alphaInactive         = -1.f; // -1 means unset

    CWindowOverridableVar<CGradientValueData> activeBorderColor   = CGradientValueData(); // empty color vector means unset
    CWindowOverridableVar<CGradientValueData> inactiveBorderColor = CGradientValueData(); // empty color vector means unset

    // set by the layout
    CWindowOverridableVar<int> borderSize = -1; // -1 means unset
    bool                       rounding   = true;
    bool                       border     = true;
    bool                       decorate   = true;
    bool                       shadow     = true;
};

struct SWindowAdditionalConfigData {
    std::string                 animationStyle        = std::string("");
    CWindowOverridableVar<int>  rounding              = -1; // -1 means no
    CWindowOverridableVar<bool> forceNoBlur           = false;
    CWindowOverridableVar<bool> forceOpaque           = false;
    CWindowOverridableVar<bool> forceOpaqueOverridden = false; // if true, a rule will not change the forceOpaque state. This is for the force opaque dispatcher.
    CWindowOverridableVar<bool> forceAllowsInput      = false;
    CWindowOverridableVar<bool> forceNoAnims          = false;
    CWindowOverridableVar<bool> forceNoBorder         = false;
    CWindowOverridableVar<bool> forceNoShadow         = false;
    CWindowOverridableVar<bool> forceNoDim            = false;
    CWindowOverridableVar<bool> windowDanceCompat     = false;
    CWindowOverridableVar<bool> noMaxSize             = false;
    CWindowOverridableVar<bool> dimAround             = false;
    CWindowOverridableVar<bool> forceRGBX             = false;
    CWindowOverridableVar<bool> keepAspectRatio       = false;
    CWindowOverridableVar<int>  xray                  = -1; // -1 means unset, takes precedence over the renderdata one
    CWindowOverridableVar<int>  borderSize            = -1; // -1 means unset, takes precedence over the renderdata one
    CWindowOverridableVar<bool> forceTearing          = false;
    CWindowOverridableVar<bool> nearestNeighbor       = false;
};

struct SWindowRule {
    std::string szRule;
    std::string szValue;

    bool        v2 = false;
    std::string szTitle;
    std::string szClass;
    std::string szInitialTitle;
    std::string szInitialClass;
    int         bX11         = -1; // -1 means "ANY"
    int         bFloating    = -1;
    int         bFullscreen  = -1;
    int         bPinned      = -1;
    int         bFocus       = -1;
    int         iOnWorkspace = -1;
    std::string szWorkspace  = ""; // empty means any
};

class CWindow {
  public:
    CWindow();
    ~CWindow();

    DYNLISTENER(commitWindow);
    DYNLISTENER(mapWindow);
    DYNLISTENER(unmapWindow);
    DYNLISTENER(destroyWindow);
    DYNLISTENER(setTitleWindow);
    DYNLISTENER(setGeometryX11U);
    DYNLISTENER(fullscreenWindow);
    DYNLISTENER(newPopupXDG);
    DYNLISTENER(requestMove);
    DYNLISTENER(requestMinimize);
    DYNLISTENER(requestMaximize);
    DYNLISTENER(requestResize);
    DYNLISTENER(activateX11);
    DYNLISTENER(configureX11);
    DYNLISTENER(toplevelClose);
    DYNLISTENER(toplevelActivate);
    DYNLISTENER(toplevelFullscreen);
    DYNLISTENER(setOverrideRedirect);
    DYNLISTENER(associateX11);
    DYNLISTENER(dissociateX11);
    DYNLISTENER(ackConfigure);
    // DYNLISTENER(newSubsurfaceWindow);

    CWLSurface            m_pWLSurface;
    std::list<CWLSurface> m_lPopupSurfaces;

    union {
        wlr_xdg_surface*      xdg;
        wlr_xwayland_surface* xwayland;
    } m_uSurface;

    // this is the position and size of the "bounding box"
    Vector2D m_vPosition = Vector2D(0, 0);
    Vector2D m_vSize     = Vector2D(0, 0);

    // this is the real position and size used to draw the thing
    CAnimatedVariable m_vRealPosition;
    CAnimatedVariable m_vRealSize;

    // for not spamming the protocols
    Vector2D                                     m_vReportedPosition;
    Vector2D                                     m_vReportedSize;
    Vector2D                                     m_vPendingReportedSize;
    std::optional<std::pair<uint32_t, Vector2D>> m_pPendingSizeAck;
    std::vector<std::pair<uint32_t, Vector2D>>   m_vPendingSizeAcks;

    // for restoring floating statuses
    Vector2D m_vLastFloatingSize;
    Vector2D m_vLastFloatingPosition;

    // this is used for pseudotiling
    bool        m_bIsPseudotiled = false;
    Vector2D    m_vPseudoSize    = Vector2D(0, 0);

    bool        m_bFirstMap      = false; // for layouts
    bool        m_bIsFloating    = false;
    bool        m_bDraggingTiled = false; // for dragging around tiled windows
    bool        m_bIsFullscreen  = false;
    bool        m_bWasMaximized  = false;
    uint64_t    m_iMonitorID     = -1;
    std::string m_szTitle        = "";
    std::string m_szInitialTitle = "";
    std::string m_szInitialClass = "";
    int         m_iWorkspaceID   = -1;

    bool        m_bIsMapped = false;

    bool        m_bRequestsFloat = false;

    // This is for fullscreen apps
    bool m_bCreatedOverFullscreen = false;

    // XWayland stuff
    bool     m_bIsX11                = false;
    CWindow* m_pX11Parent            = nullptr;
    uint64_t m_iX11Type              = 0;
    bool     m_bIsModal              = false;
    bool     m_bX11DoesntWantBorders = false;
    bool     m_bX11ShouldntFocus     = false;
    float    m_fX11SurfaceScaledBy   = 1.f;
    //

    // For nofocus
    bool m_bNoFocus        = false;
    bool m_bNoInitialFocus = false;

    // Fullscreen and Maximize
    bool              m_bWantsInitialFullscreen = false;
    bool              m_bNoFullscreenRequest    = false;
    bool              m_bNoMaximizeRequest      = false;

    SSurfaceTreeNode* m_pSurfaceTree = nullptr;

    // Animated border
    CGradientValueData m_cRealBorderColor         = {0};
    CGradientValueData m_cRealBorderColorPrevious = {0};
    CAnimatedVariable  m_fBorderFadeAnimationProgress;
    CAnimatedVariable  m_fBorderAngleAnimationProgress;

    // Fade in-out
    CAnimatedVariable        m_fAlpha;
    bool                     m_bFadingOut     = false;
    bool                     m_bReadyToDelete = false;
    Vector2D                 m_vOriginalClosedPos;  // these will be used for calculations later on in
    Vector2D                 m_vOriginalClosedSize; // drawing the closing animations
    SWindowDecorationExtents m_eOriginalClosedExtents;

    // For pinned (sticky) windows
    bool m_bPinned = false;

    // urgency hint
    bool m_bIsUrgent = false;

    // fakefullscreen
    bool m_bFakeFullscreenState = false;

    // for proper cycling. While cycling we can't just move the pointers, so we need to keep track of the last cycled window.
    CWindow* m_pLastCycledWindow = nullptr;

    // Foreign Toplevel proto
    wlr_foreign_toplevel_handle_v1* m_phForeignToplevel = nullptr;

    // Window decorations
    std::deque<std::unique_ptr<IHyprWindowDecoration>> m_dWindowDecorations;
    std::vector<IHyprWindowDecoration*>                m_vDecosToRemove;

    // Special render data, rules, etc
    SWindowSpecialRenderData    m_sSpecialRenderData;
    SWindowAdditionalConfigData m_sAdditionalConfigData;

    // Transformers
    std::vector<std::unique_ptr<IWindowTransformer>> m_vTransformers;

    // for alpha
    CAnimatedVariable m_fActiveInactiveAlpha;

    // animated shadow color
    CAnimatedVariable m_cRealShadowColor;

    // animated tint
    CAnimatedVariable m_fDimPercent;

    // swallowing
    CWindow* m_pSwallowed = nullptr;

    // focus stuff
    bool m_bStayFocused = false;

    // for toplevel monitor events
    uint64_t m_iLastToplevelMonitorID = -1;
    uint64_t m_iLastSurfaceMonitorID  = -1;

    // for idle inhibiting windows
    eIdleInhibitMode m_eIdleInhibitMode = IDLEINHIBIT_NONE;

    // for groups
    struct SGroupData {
        CWindow* pNextWindow = nullptr; // nullptr means no grouping. Self means single group.
        bool     head        = false;
        bool     locked      = false; // per group lock
        bool     deny        = false; // deny window from enter a group or made a group
    } m_sGroupData;
    uint16_t m_eGroupRules = GROUP_NONE;

    bool     m_bTearingHint = false;

    // For the list lookup
    bool operator==(const CWindow& rhs) {
        return m_uSurface.xdg == rhs.m_uSurface.xdg && m_uSurface.xwayland == rhs.m_uSurface.xwayland && m_vPosition == rhs.m_vPosition && m_vSize == rhs.m_vSize &&
            m_bFadingOut == rhs.m_bFadingOut;
    }

    // methods
    CBox                     getFullWindowBoundingBox();
    SWindowDecorationExtents getFullWindowExtents();
    CBox                     getWindowInputBox();
    CBox                     getWindowMainSurfaceBox();
    CBox                     getWindowIdealBoundingBoxIgnoreReserved();
    void                     addWindowDeco(std::unique_ptr<IHyprWindowDecoration> deco);
    void                     updateWindowDecos();
    void                     removeWindowDeco(IHyprWindowDecoration* deco);
    void                     uncacheWindowDecos();
    bool                     checkInputOnDecos(const eInputType, const Vector2D&, std::any = {});
    pid_t                    getPID();
    IHyprWindowDecoration*   getDecorationByType(eDecorationType);
    void                     removeDecorationByType(eDecorationType);
    void                     createToplevelHandle();
    void                     destroyToplevelHandle();
    void                     updateToplevel();
    void                     updateSurfaceScaleTransformDetails();
    void                     moveToWorkspace(int);
    CWindow*                 X11TransientFor();
    void                     onUnmap();
    void                     onMap();
    void                     setHidden(bool hidden);
    bool                     isHidden();
    void                     applyDynamicRule(const SWindowRule& r);
    void                     updateDynamicRules();
    SWindowDecorationExtents getFullWindowReservedArea();
    Vector2D                 middle();
    bool                     opaque();
    float                    rounding();
    bool                     canBeTorn();
    bool                     shouldSendFullscreenState();
    void                     setSuspended(bool suspend);

    int                      getRealBorderSize();
    void                     updateSpecialRenderData();

    void                     onBorderAngleAnimEnd(void* ptr);
    bool                     isInCurvedCorner(double x, double y);
    bool                     hasPopupAt(const Vector2D& pos);

    void                     applyGroupRules();
    void                     createGroup();
    void                     destroyGroup();
    CWindow*                 getGroupHead();
    CWindow*                 getGroupTail();
    CWindow*                 getGroupCurrent();
    CWindow*                 getGroupPrevious();
    CWindow*                 getGroupWindowByIndex(int);
    int                      getGroupSize();
    bool                     canBeGroupedInto(CWindow* pWindow);
    void                     setGroupCurrent(CWindow* pWindow);
    void                     insertWindowToGroup(CWindow* pWindow);
    void                     updateGroupOutputs();
    void                     switchWithWindowInGroup(CWindow* pWindow);

  private:
    // For hidden windows and stuff
    bool m_bHidden    = false;
    bool m_bSuspended = false;
};

/**
    format specification
    - 'x', only address, equivalent of (uintpr_t)CWindow*
    - 'm', with monitor id
    - 'w', with workspace id
    - 'c', with application class
*/

template <typename CharT>
struct std::formatter<CWindow*, CharT> : std::formatter<CharT> {
    bool formatAddressOnly = false;
    bool formatWorkspace   = false;
    bool formatMonitor     = false;
    bool formatClass       = false;
    FORMAT_PARSE(                           //
        FORMAT_FLAG('x', formatAddressOnly) //
        FORMAT_FLAG('m', formatMonitor)     //
        FORMAT_FLAG('w', formatWorkspace)   //
        FORMAT_FLAG('c', formatClass),
        CWindow*)

    template <typename FormatContext>
    auto format(CWindow* const& w, FormatContext& ctx) const {
        auto&& out = ctx.out();
        if (formatAddressOnly)
            return std::format_to(out, "{:x}", (uintptr_t)w);
        if (!w)
            return std::format_to(out, "[Window nullptr]");

        std::format_to(out, "[");
        std::format_to(out, "Window {:x}: title: \"{}\"", (uintptr_t)w, w->m_szTitle);
        if (formatWorkspace)
            std::format_to(out, ", workspace: {}", w->m_iWorkspaceID);
        if (formatMonitor)
            std::format_to(out, ", monitor: {}", w->m_iMonitorID);
        if (formatClass)
            std::format_to(out, ", class: {}", g_pXWaylandManager->getAppIDClass(w));
        return std::format_to(out, "]");
    }
};
